Article

284

Name of journalTechnical science and innovation
Number of edition2020,№2(04)
View count284

Web Address

DOI

Date of creation in the UzSCI system21-10-2020

Read count256

Date of publication19-06-2020

Main LanguageO'zbek

Pages166-171

Tags

English

The article includes an overview of the mathematical model for the thermal humidifying air treatment in the nozzle chamber. The dynamics of non-stationary heat and mass transfer processes between the operating substances in the devices and the transfer characteristics, the balance equations of the exchange media are discussed. The physical and mathematical explanation of the heat and mass exchange processes in the thickness of the working environment and the communication between the heat and water streams via the surface device are described. Expression and dependency for the description of final air parameters in the irrigation chamber is addressed.

Tags

environment

heat and mass transfer

sprayer

air conditioning system

nozzle chamber

№ Author name position Name of organisation

1 Usmonov N.O. dotsent TDTU

2 Mavjudova S.S. o'qituvchi TDTU

3 Boliev B.B. – соискатель École spéciale des travaux publics, du bâtiment et de l'industrie (France)

№ Name of reference

1 . Theological V.N., Kokorin O.Ya., Petrov L.V. Air-conditioning and cold supply. - Moscow: Stroyzdat, 1985, 367 p.

2 Nesterenko, A.V. Fundamentals of the thermodynamic calculations of the ventilation and the air-conditioning. - Moscow: Higher school, 1971, 460 p.

3 Wong X. Basic formulas and data on heat exchange for engineers. Per. from English. Handbook. - Moscow: Atomizdat, 1979, 262 p.

4 Srebnitskiy B.N. Examples of calculation of the air-conditioning system. - K.: Budivelnik, 1970. - – 160 p.

5 . Kokorin, O.Ya. Modern air-conditioning systems. - Moscow: Publishing house of the physical and mathematical literature. 2003. - – 272 p.

6 Averkin, A.G.; Orlova, N.A. Nozzles for the heat-and-mass exchange processes. Coll. Problems of the energy- and resource-saving in the industrial and housing and communal complexes. International scientific and technical seminar, PGASA, Penza, 2001, pp. 31-33.

7 . Prilepsky, D.V., Tarabanov, M.G. Energy-efficient irrigation chambers for ventilation and air conditioning systems // AVOK.-2012.- № 5. – pp 24-33.

8 Hoval Aluminium Plate Heat Exchangers for Heat Recovery in Ventilation Systems. Handbook for Design, Installation and Operation. Art.Nr. 4204784-02-07/2007, 44 p.

9 Prilepsky D. V. Structural features of an irrigation chamber with a transverse arrangement of nozzles. VolgGASU Bulletin. 2014. №35 – 177-181 p.

10 Shilyaev, M.I.; Khromova, E.M.; Grigoriev, A.V.; Tumashova, A.V. Hydrodynamics and Heat and Mass Transfer in the Nozzle Irrigation Chambers. Thermophysics and aeromechanics, 2011, No.1. – pp 15-26.

11 Averkin A.G., Orlova N.A. Calculation method of the nozzle chamber equipped with the ejection type nozzles. Materials of the XXX All-Russian Scientific and Technical Conference, Penza GASA, Penza, 1999. – pp 7-9.

12 Usmonov N.O., Sanayev Sh.S., Yusupov Z.E. Calculation of temperature of routine water cooled in irrigated layers // Technical science and innovation. - – 2019. – № 2. – pp 249-256.

Waiting

№	Author name	position	Name of organisation
1	Usmonov N.O.	dotsent	TDTU
2	Mavjudova S.S.	o'qituvchi	TDTU
3	Boliev B.B.	– соискатель	École spéciale des travaux publics, du bâtiment et de l'industrie (France)

№	Name of reference
1	. Theological V.N., Kokorin O.Ya., Petrov L.V. Air-conditioning and cold supply. - Moscow: Stroyzdat, 1985, 367 p.
2	Nesterenko, A.V. Fundamentals of the thermodynamic calculations of the ventilation and the air-conditioning. - Moscow: Higher school, 1971, 460 p.
3	Wong X. Basic formulas and data on heat exchange for engineers. Per. from English. Handbook. - Moscow: Atomizdat, 1979, 262 p.
4	Srebnitskiy B.N. Examples of calculation of the air-conditioning system. - K.: Budivelnik, 1970. - – 160 p.
5	. Kokorin, O.Ya. Modern air-conditioning systems. - Moscow: Publishing house of the physical and mathematical literature. 2003. - – 272 p.
6	Averkin, A.G.; Orlova, N.A. Nozzles for the heat-and-mass exchange processes. Coll. Problems of the energy- and resource-saving in the industrial and housing and communal complexes. International scientific and technical seminar, PGASA, Penza, 2001, pp. 31-33.
7	. Prilepsky, D.V., Tarabanov, M.G. Energy-efficient irrigation chambers for ventilation and air conditioning systems // AVOK.-2012.- № 5. – pp 24-33.
8	Hoval Aluminium Plate Heat Exchangers for Heat Recovery in Ventilation Systems. Handbook for Design, Installation and Operation. Art.Nr. 4204784-02-07/2007, 44 p.
9	Prilepsky D. V. Structural features of an irrigation chamber with a transverse arrangement of nozzles. VolgGASU Bulletin. 2014. №35 – 177-181 p.
10	Shilyaev, M.I.; Khromova, E.M.; Grigoriev, A.V.; Tumashova, A.V. Hydrodynamics and Heat and Mass Transfer in the Nozzle Irrigation Chambers. Thermophysics and aeromechanics, 2011, No.1. – pp 15-26.
11	Averkin A.G., Orlova N.A. Calculation method of the nozzle chamber equipped with the ejection type nozzles. Materials of the XXX All-Russian Scientific and Technical Conference, Penza GASA, Penza, 1999. – pp 7-9.
12	Usmonov N.O., Sanayev Sh.S., Yusupov Z.E. Calculation of temperature of routine water cooled in irrigated layers // Technical science and innovation. - – 2019. – № 2. – pp 249-256.